Abstract: A medium feeding device includes: a placement unit on which a medium is placed; a feeding section that feeds the medium placed on the placement unit; a wrinkle detection section that is provided on a further upstream side than the feeding section in a feeding direction and outputs a detection value in accordance with a wrinkle in the medium; and a control section that performs predetermined control on the basis of the detection value of the wrinkle detection section and stops the feeding section in a case in which the detection value output from the wrinkle detection section exceeds a predetermined allowable value.

Abstract: According to an example, a scanner apparatus may include a housing, a scan panel positioned on the housing and a lid rotatably mounted to the housing. The lid may be moved between a closed position and an open position, in which in the closed position, the lid covers the scan panel and in the open position, the lid is extended away from the scan panel. The scanner apparatus may also include an optical sensor to detect media placed on the scan panel and a media engine to determine whether the optical sensor has detected a media on the scan panel while the lid is in the open position.

Abstract: A printing apparatus includes an obtaining section that obtains encoded data in which compression is performed, a decoding section that decodes encoded data to obtain image data for printing, and a printing section that performs printing by using image data for printing. The encoded data is encoded data including, for a respective one of the blocks, first compressed data in which quantized values obtained by performing orthogonal transformation for a respective one of N color components are each compressed, and second compressed data in which, by using a dictionary in which a plurality of different colors are registered as indexes, a corresponding one of the indexes associated with the color of each pixel is compressed. The decoding section decodes the first compressed data in N cycles and decodes the second compressed data in one cycle to obtain print data decoded in units of the blocks.

Abstract: An image forming apparatus that is capable of improving a specified-color removal process. An obtaining unit obtains color image data. A color specification unit specifies removal color. A specified-color removal unit removes color that is determined to be removed according to determination based on a brightness threshold and a first saturation threshold about the removal color from the color image data obtained.

Abstract: An electronic apparatus includes circuitry to receive a request for generating electronic data from an information processing apparatus via a first communication network, generate the electronic data, receive storage destination information designating a storage destination of the electronic data from the information processing apparatus via the first communication network, and transmit the generated electronic data to the storage destination via a second communication network, different from the first communication network, based on the storage destination information received from the information processing apparatus.

Abstract: An image processing apparatus includes a target value calculation unit configured to calculate a target value to be output in a predetermined region in input image data based on pixel values of pixels included in the region, a distribution order determination unit configured to determine a distribution order of output values for distributing output values corresponding to the target value in the region based on a pixel value of each pixel included in the region and a threshold value in the threshold matrix corresponding to the pixel, and an output value determination unit configured to determine an output value of each pixel included in the region by allocating the target value to at least one pixel included in the region in the distribution order.

Abstract: According to an example, an apparatus may include an automatic document feeder, printing components, an externally accessible embedded finishing mechanism, an illumination source to direct attention to the embedded finishing mechanism, and a controller. The controller may determine whether a certain condition has been met pertaining to media sheets fed into the automatic document feeder or printed by the printing components, and in response to a determination that the certain condition has been met, may activate the illumination source.

Abstract: An example method of linearizing print outputs for a printing system is described. The method involves retrieving a look-up table comprising a plurality of nodes that map input space values to Neugebauer Primary Area Coverage vectors. The printing system is used to print a set of ramps, each ramp comprising a plurality of test areas. The test areas for each ramp are defined by varying vector element values corresponding to input space values that vary in a dimension of the input space. A property of each of the printed test areas is measured and a linearization function is determined based on those measured properties. The linearization function is then applied to the input space values for the plurality of nodes in the look-up table.

Abstract: An image processing apparatus is configured to execute first image data process, second image data process, a first storing process to store process combination information including a first default parameter and a second default parameter, and a combination process. The combination process includes a first obtaining process of obtaining an alternative parameter including at least one of a first alternative parameter and a second alternative parameter, a first combination execution process of executing the first image data process in accordance with the first alternative parameter when the first alternative parameter is obtained, and a second combination execution process of executing the second image data process in accordance with the second alternative parameter when the second alternative parameter is obtained.

Abstract: Embodiments described herein utilize a color transform that maps input colors in print jobs to output colors of a printing system. The color transform defines colorant limits that vary based on where the input colors are represented within a color space. When a print job is processed using the color transform to generate rasterized image data, input colors in the print job are converted into output colors of the printing system where a colorant amount for printing each of the output colors is within the colorant limit defined by where its respective input color is represented in the color space.

Abstract: A memory device includes a compressed color table and corrective information. The compressed color table includes a first set of nodes of the color table compressed with a lossy compression at a selected compression ratio. The first set of nodes include a color difference within an error threshold at the selected compression ratio. Corrective information is included for a second set of nodes of the color table. The second set of nodes have a color difference outside the error threshold.

Abstract: The present disclosure relates to advanced signal processing including signal embedding, digital watermarking and steganography.

Abstract: An image forming apparatus includes an image forming unit and a control unit. The image forming unit forms a test image based on test image data. The test image data includes a first image area and a second image area. The first image area is disposed adjacent to the second image area. The first image area is an image area including a mixed color image of a first primary color and a second primary color and has the same gradation value in a main scanning direction. The second image area is an image area of the second primary color and has the same gradation value in the main scanning direction. The control unit corrects a correction table based on the test image formed in the image forming unit. In the correction table, for each primary color, the gradation value is corrected according to a position in the main scanning direction.

Abstract: An image forming apparatus includes an apparatus body, a post-processing device, a sheet detector, and an indicator. The apparatus body has an internal space open to an outside of the apparatus body. The post-processing device is disposed in the internal space, and has an upper surface forming a sheet ejection tray. The post-processing device is disposed in an internal sheet ejection space as an open space in the apparatus body, and includes an upper surface as a sheet ejection tray. The sheet detector detects a sheet on the sheet ejection tray. The indicator disposed in the post-processing device indicates a sheet on the sheet ejection tray.

Abstract: This disclosure is directed to systems and methods for the delivery and maintenance of faxes where the faxes may remain at a faxing system for a minimal amount of time. The faxing system may send a queued fax to a connector responsive to a request from the connector to pull or retrieve a fax. The connector is configured to send a release notification to the faxing system after the fax is received. The faxing system is configured to delete the queued fax as soon as confirmation of the delivery of the fax can be determined or when an expiration time has elapsed.

Abstract: An image is rendered on a display having a limited number of primary colors by (104) combining input data representing the color of a pixel to be rendered with error data to form modified input data, determining in a color space the simplex (208—typically a tetrahedron) enclosing the modified input data and the primary colors associated with the simplex, converting (210) the modified image data to barycentric coordinates based upon the primary colors associated with the simplex and (212) setting output data to the primary having the largest barycentric coordinate. calculating (214) the difference between the modified input data and the output data for the pixel, thus generating error data, applying (106) this error data to at least one later-rendered pixel, and applying the output data to the display and thus rendering the image on the display. Apparatus and computer-storage media for carrying out this process are also provided.

Abstract: A method of digitizing, including accepting papers in an input tray for digitizing, digitizing content of the paper with a first digitizing scanner, digitizing calibration markings with each paper digitized by the first digitizing scanner or digitizing content of the paper with a second digitizing scanner, comparing the calibration markings to predefined markings or comparing the digitized content of the paper from the first digitizing scanner with the digitized content of the paper from the second digitizing scanner, determining if the content of the paper from the first digitizing scanner was scanned correctly based on the, directing the paper to one of two or more output trays by a controller responsive to the determining.

Abstract: A profile adjustment method is a method of adjusting a profile defining a correspondent relation between input coordinate values of an input color space and output coordinate values of an output color space. The profile adjustment method includes: accepting setting of a first adjustment point of first coordinates and a second adjustment point of second coordinates; setting a third adjustment point of third coordinates based on the first and second coordinates; generating third adjustment data indicating degree of adjustment at the third adjustment point based on first adjustment data indicating degree of adjustment at the first adjustment point and second adjustment data indicating degree of adjustment at the second adjustment point; and adjusting the profile based on the first adjustment data, the second adjustment data, and the third adjustment data.

Abstract: An image processing apparatus includes a target value calculation unit configured to calculate a target value to be output in a predetermined region in input image data based on pixel values of pixels included in the region, a distribution order determination unit configured to determine a distribution order of output values for distributing output values corresponding to the target value in the region based on a pixel value of each pixel included in the region and a threshold value in the threshold matrix corresponding to the pixel, and an output value determination unit configured to determine an output value of each pixel included in the region by allocating the target value to at least one pixel included in the region in the distribution order.

Abstract: Various different output devices (e.g., printers, display devices) can be used to output content on various different substrates (e.g., paper, projector screens, painted walls or wallpaper). A data store stores output metadata for various output device and substrate combinations. The output metadata for an output device and substrate combination describes various different aspects of how that output device is to output color on that substrate. A computing device coupled to an output device obtains an identifier of the output device and an identifier of the substrate. The computing device communicates uses these identifiers to retrieve from the data store (e.g., directly or via a service) the output metadata for the output device and the substrate. The computing device uses the output metadata to generate output parameters for use when outputting content to the substrate.